Perturbation Theory in Supersymmetric QED: Infrared Divergences and Gauge Invariance

Abstract

We study some aspects of perturbation theory in N=1 supersymmetric abelian gauge theories with massive charged matter. In general gauges, infrared (IR) divergences and nonlocal behavior arise in 1PI diagrams, associated with a 1/k4 term in the propagator for the vector superfield. We examine this structure in supersymmetric QED. The IR divergences are gauge-dependent and must cancel in physical quantities like the electron pole mass. We demonstrate that cancellation takes place in a nontrivial way, amounting to a reorganization of the perturbative series from powers of e2 to powers of e. We also show how these complications are avoided in cases where a Wilsonian effective action can be defined.